Storage system and method for soft-decision-based command execution to enhance random write performance

1. A storage system comprising: at least one latch; a memory; and a controller comprising: a command parser; and a set of components in a path between the command parser and the memory, wherein one of the components in the set of components is configured to determine whether the at least one latch is partially filled with data to be written in the memory; wherein the command parser is configured to: receive a plurality of commands from a host, wherein the plurality of commands comprises at least one read command and at least one write command; receive feedback from the set of components that indicates that the at least one latch is partially filled with data to be written in the memory; and in response to receiving the feedback from the set of components, send a write command to the set of components instead of a read command to further fill the at least one latch with data before flushing it to the memory.

2. The storage system of claim 1 , wherein: one of the components in the set of components is configured to perform logical-to-physical address translation based on a cached portion of a logical-to-physical address translation table; and the feedback comprises an identification of logical addresses contained in the cached portion of the logical-to-physical address translation table.

3. The storage system of claim 2 , wherein the command parser is further configured to give priority to a command having a logical address contained in the cached portion of the logical-to-physical address translation table over a command having a logical address that is not contained in the cached portion of the logical-to-physical address translation table.

4. The storage system of claim 1 , wherein: one of the components in the set of components is configured to track free space remaining in a block of memory; and the feedback comprises an identification of the free space remaining in the block of memory.

5. The storage system of claim 4 , wherein the command parser is further configured to give priority to a write command that requires no more than the amount of free space remaining in the block of memory over a write command that requires more than the amount of free space remaining in the block of memory.

6. The storage system of claim 1 , wherein the memory comprises a three-dimensional memory.

7. The storage system of claim 1 , wherein the storage system is removably connectable to the host.

8. The storage system of claim 1 , wherein the storage system is embedded in the host.

9. A method for prioritizing commands in a storage system, the method comprising: performing the following in a command parser in a controller of a storage system, wherein the storage system comprises a memory, and wherein the controller further comprises a backend module, wherein the backend module is configured to perform logical-to-physical address translation based on a cached portion of a logical-to-physical address map stored in cache: receiving a plurality of commands from a host; receiving feedback from the backend module, wherein the feedback comprises information about which logical addresses are included in the cached portion of the logical-to-physical address man; and determining, based on the feedback from the backend module, an order in which to send the plurality of commands to the backend module, such that a command having logical address present in the cached portion of the logical-to-physical address map is given priority over a command having a logical address that is not contained in the cached portion of the logical-to-physical address map to avoid decreasing performance by reading another portion of the logical-to-physical address map from a location external to the cache.

10. The method of claim 9 , wherein: the feedback comprises information about how full a latch in the memory is; and the command parser sends a write command instead of a read command responsive to the latch not being empty.

11. The method of claim 9 , wherein: the feedback comprises information about free space remaining in a block of memory; and the command parser sends a write command that will not spill over to another block of memory.

12. The method of claim 9 , wherein the memory comprises a three-dimensional memory.

13. The method of claim 9 , wherein the storage system is removably connectable to the host.

14. The method of claim 9 , wherein the storage system is embedded in the host.

15. A storage system comprising: a memory; back end means for processing and sending a command to the memory; and front end means for receiving a plurality of commands from a host and determining, based on feedback from the back end means, an order in which to send the plurality of commands to the back end means, wherein the feedback comprises information about free space remaining in a block of the memory, and wherein the order is chosen to give priority to a write command that requires no more than the amount of free space remaining in the block of memory over a write command that requires more than the amount of free space remaining in the block of memory to avoid memory translation layer fragmentation.

16. The storage system of claim 15 , wherein the front end means comprises a command parser.

17. The storage system of claim 15 , wherein the memory comprises a three-dimensional memory.